Issue 32, 2024

Reticular chemistry guided single-linker constructed pillar-layered metal–organic frameworks via an in situ “one-pot” strategy

Abstract

In the present work, we report a “two-in-one” strategy to construct single-linker-based pillar-layered metal–organic frameworks (PL-MOFs) guided by reticular chemistry via an in situ “one-pot” approach. Two carboxyl groups and one pyridine group are integrated into one molecular skeleton to form bifunctional organic linkers via the reaction of pyridine-containing aldehyde and bicarboxylate-containing o-phenylenediamine. During the synthesis of organic linkers, two zinc-based PL-MOFs, non-interpenetrated HIAM-3016-op and two-fold interpenetrated HIAM-3017-op, can be simultaneously constructed. The different interpenetrations for these two PL-MOFs can be attributed to the increased length of the pyridine-containing moiety. HIAM-3017-op can be utilized for Cr2O72− detection with excellent sensitivity and selectivity. The present work not only provides a novel insight to design and prepare PL-MOFs with specific structures guided by reticular chemistry, but also indicates the universality of the in situ “one-pot” strategy to construct porous materials.

Graphical abstract: Reticular chemistry guided single-linker constructed pillar-layered metal–organic frameworks via an in situ “one-pot” strategy

Supplementary files

Article information

Article type
Communication
Submitted
13 Jun 2024
Accepted
24 Jul 2024
First published
30 Jul 2024

Dalton Trans., 2024,53, 13320-13325

Reticular chemistry guided single-linker constructed pillar-layered metal–organic frameworks via an in situ “one-pot” strategy

Z. Ma, H. Yang, K. Xing, K. Zhou, G. Lu and X. Liu, Dalton Trans., 2024, 53, 13320 DOI: 10.1039/D4DT01729C

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